Note: Focussed areas are allocated based on duration / availability.
Cancer Research
1. Immunotherapy: Enhancing the immune system s ability to target cancer cells.
2. Antibody-Drug Conjugates (ADCs): Using antibodies to deliver drugs directly to cancer cells.
3. Tumor Microenvironment Targeting: Disrupting the supportive environment of tumors.
4. Kinase Inhibitors: Targeting key proteins involved in cancer cell signaling.
5. Epigenetic Drug Discovery: Modulating genetic modifications implicated in cancer progression.
6. Immunoproteomics: Identifying immune-related markers for cancer immunotherapy.
7. GPCR-Targeted Drug Development: Targeting receptors involved in cancer cell behaviors.
8. Targeted Protein Degradation: Degrading specific proteins associated with cancer.
9. Biomarker Identification: Discovering cancer-specific markers for early detection and therapy.
10. Gene Therapy Vectors: Delivering therapeutic genes to treat cancer.
11. Metabolism Targeting: Investigating metabolic pathways for potential cancer therapies.
12. RNA-Based Therapeutics: Using RNA molecules to regulate cancer-related processes.
13. Combination Immunotherapies: Combining different immunotherapeutic approaches for synergistic effects.
14. Angiogenesis Inhibition: Targeting blood vessel formation to limit tumor growth.
15. Microbiome and Cancer: Exploring the role of the gut microbiome in cancer development and treatment.
16. Liquid Biopsies: Developing non-invasive methods for early cancer detection.
17. Synthetic Biology Approaches: Engineering biological systems for cancer therapy.
18. Drug Resistance Mechanisms: Studying how cancer cells develop resistance to therapies.
19. Nanomedicine in Targeted Therapy: Developing nanoparticles for precise drug delivery to cancer cells.
20. Tumor Evolution Analysis: Understanding how tumors evolve over time to devise more effective treatments.
Anti-Aging Research
1. Telomerase Activation: Potentially extending cellular lifespan.
2. Senescence-Associated Pathways: Modulating pathways related to cellular aging.
3. Sirtuin Activation: Activating proteins promoting longevity and health.
4. Mitochondrial Health: Enhancing energy production and reducing oxidative stress.
5. DNA Repair Enhancement: Boosting cellular repair mechanisms.
6. Inflammation Control: Modulating inflammation associated with aging.
7. AMP-Activated Protein Kinase (AMPK) Activation: Regulating energy balance and cellular longevity.
8. Caloric Restriction Mimetics: Developing compounds mimicking the effects of calorie restriction.
9. Autophagy Promotion: Enhancing cellular self-renewal processes.
10. Exosome-Based Therapeutics: Using exosomes for tissue repair and anti-aging benefits.
11. Hormone Replacement Therapies: Investigating the effects of hormone replacement on aging processes.
12. Nutraceuticals and Longevity: Exploring the use of dietary supplements for anti-aging benefits.
13. Stem Cell-Based Regeneration: Harnessing the potential of stem cells for tissue repair and rejuvenation.
14. Senolytics: Developing drugs to remove senescent cells associated with aging.
15. Epigenetic Clocks: Developing methods to measure and reverse epigenetic aging.
16. Mitophagy Enhancement: Promoting the removal of damaged mitochondria to combat aging.
17. Longevity Genetics: Studying the genetics of exceptionally long-lived individuals.
18. Organ Transplantation and Aging: Exploring the rejuvenating effects of organ transplantation on aging.
19. Cognitive Enhancement: Developing interventions to preserve and enhance cognitive function in old age.
20. Lifestyle and Aging: Investigating the impact of lifestyle factors like diet, exercise, and stress management on aging processes.
Please confirm your selected focused area before proceeding to joining or registration process.